Three-dimensional finite element analysis for through-wall crack in thick plate

## Abstract By using the finite element technique, stress intensity factors have been obtained for finite rectangular plates and the results have been given for various __h__/__a__, __W__/__a__ and __L__/__W__ ratios. By using a three‐dimensional isoparametric element, the problem has been consider

The stress field in a finite-thickness plate weakened by a three-dimensional crack and subjected to tension in a direction ~r~ndicular to the crack plane is studied. The cases of an embedded elliptical, semi-elliptica and quarter-elliptical surface crack are considered. The stress analysis takes pla

Three-dimensional vibrations of thick circular and annular plates are analyzed by a "nite element method which, with a properly assumed set of displacement "eld, is di!erent from the traditional 3-D "nite element analysis and is reduced to a sequence of 2-D analyses one for each circumferential wave

We develop a three-dimensional ÿnite-deformation cohesive element and a class of irreversible cohesive laws which enable the accurate and e cient tracking of dynamically growing cracks. The cohesive element governs the separation of the crack anks in accordance with an irreversible cohesive law, eve